The present invention relates to an adhesive silicone patch to be applied to a wearable product. The adhesive silicone patch provides the function of assisting the musculoskeletal system and ligaments for each part of the human body, the function of preventing secondary damage, the function of supporting the injured part, and the function of promoting blood circulation. In addition, the adhesive silicone patch dramatically reduces the concentration of lactic acid generated during exercise. The present invention also relates to a wearable product provided with the adhesive silicone patch. The adhesive silicone patch is applied to the inner surface of a wearable product such as clothing and includes a first functional layer. The first functional layer includes a two-component liquid silicone rubber (LSR) and a silicone-based pressure-sensitive adhesive (PSA). The LSR is composed of a main component and a crosslinking agent. The PSA is included in an amount of 50 to 200 parts by weight with respect to 100 parts by weight of the LSR.

Embodiments described herein relate generally to wearable electronic biosensing garments. In some embodiments, an apparatus comprises a biosensing garment and a plurality of electrical connectors that are mechanically fastened to the biosensing garment. A plurality of printed electrodes is disposed on the biosensing garment, each being electrically coupled, via a corresponding conductive pathway, to a corresponding one of the plurality of electrical connectors. The apparatus can further include an elongate member including a conductive member that is coupled to a plurality of elastic members in a curved pattern and that is configured to change from a first configuration to a second configuration as the elongate member stretches. The change from the first configuration to the second configuration can result in a change of inductance of the conductive member.

Embodiments described herein relate generally to wearable electronic biosensing garments. In some embodiments, an apparatus comprises a biosensing garment and a plurality of electrical connectors that are mechanically fastened to the biosensing garment. A plurality of printed electrodes is disposed on the biosensing garment, each being electrically coupled, via a corresponding conductive pathway, to a corresponding one of the plurality of electrical connectors. The apparatus can further include an elongate member including a conductive member that is coupled to a plurality of elastic members in a curved pattern and that is configured to change from a first configuration to a second configuration as the elongate member stretches. The change from the first configuration to the second configuration can result in a change of inductance of the conductive member.

Various textile materials and method of manufacturing the same are provide. A method of single layer garment includes providing a single layer of textile material with low melt yarn. The method also includes forming the structure of the single layer of textile 5 material using selective heating to provide material support. The textile material are formed via at least one of a molding machine or a robotic hot air machine.

A yarn made from a mixture of a grain and a first polymer by spinning is provides. The yarn includes a plurality of fibers. Each fiber has a surface layer and a core layer surrounded by the surface layer. The surface layer is made from the grain and the first polymer. The core layer is made from the first polymer. The grain includes a nano-powder mixture and a second polymer. A weight percentage of the nano-powder mixture in the grain is from 60% to 70%. The nano-powder mixture includes silicon dioxide, magnesium oxide and aluminum oxide. A weight ratio of silicon dioxide to magnesium oxide in the nano-powder mixture is from 2:1 to 1:2. A weight ratio of silicon dioxide to aluminum oxide in the nano-powder mixture is from 2:1 to 1:2.

A polymer composition comprising a polymer and at least one active substance selected from the group consisting of a substance generating an occlusion, in particular a substance generating an internal occlusion or a substance generating an external occlusion; a moisturizing substance; a substance reducing pain or itching; and mixtures of these.

A method for preliminarily making a basic knitted fabric by repeatedly juxtapositionally plating a hydrophilic yarn on a hydrophobic yarn to form an inner hydrophobic sublayer consisting of a plurality of inner hydrophobic loops to be contacted with a wearer's skin, and an outer hydrophilic sublayer consisting of a plurality of outer hydrophilic loops at an outer surface; and for secondarily fleecing the basic knitted fabric to increase its capillary gradient and uni-directional moisture transportability for quickly transporting moisture outwardly for making the wearer more dry, warm, comfortable.

A plastic fabric using a different-melting point core-sheath structure fiber comprises a top layer fabric, a support layer, and a bottom layer fabric. The top layer fabric is fabricated with a different-melting point fiber, which comprises a core-sheath structure including a core and a sheath wrapping the core. The core has a melting point higher than that of the sheath. The bottom layer fabric is disposed on one side of the top layer fabric. The support layer is disposed between the top layer fabric and the bottom layer fabric. As the core has a melting point higher than that of the sheath, the different-melting point fiber has superior dimensional stability and permanent shape memory after heat treatment for plastic shaping.

The present invention pertains to a stretch knitted fabric which exhibits an instantaneous temperature rise when stretched and which, by the repetition of stretching and relaxation, lastingly generates heat when stretched. A stretch knitted fabric which is composed of a non-elastic yarn and an elastic yarn, characterized in that the instantaneous temperature rise caused by heat generation at 100% warpwise and/or weftwise stretching is 1.0° C. or more.

A garment for a human wearer includes: a terry garment-region having terry-knit cloth; and a non-terry garment-region having non-terry-knit cloth. The terry garment-region is directly bordering and adjacent to the non-terry garment-region. The terry garment-region and the non-terry garment-region are a seamless continuation of each other. Similarly, a continuous fabric for making clothes includes: a terry fabric-region having terry-knit cloth, and an adjacent and immediately bordering non-terry fabric-region having non-terry-knit cloth. Optionally, TPU or PVC elements or plastic elements are embedded within the terry garment-region, or within the non-terry garment-region; or such elements cover, or are covered by, the terry garment-region or the non-terry garment-region.